Methods &amp; Apparatus for Searching with Awareness of Geography and Languages

ABSTRACT

A system that automatically discerning the best combinations of a user query&#39;s geographical origin and language, retrieving and displaying search results accordingly. A record on the system are associated with a geographic location and a language. A record could be composed of two or more records, each of which associates with a location and a language. A record could be in rich media format.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority to U.S. patent application Ser. No.60/811989 filed Jun. 7, 2006.

FIELD OF THE INVENTION

The field of the invention is searching technologies.

BACKGROUND

Globalization necessitates an audience of diverse languages andgeographic locations. To satisfy a user's information need, relevance isnecessarily a function of both language and location.

Consider a company whose potential clients are in different countriesand regions, speaking difference languages. The company's web sitecontains pages that are relevant for different clients. For example, onepage aims at potential English-speaking clients from Los Angeles (“oursales office is a short distance from the Union Station. . . .”);another page aims at potential clients from Los Angeles speakingSpanish; still another page at clients from Los Angeles speakingChinese; and still another page at clients from Shanghai speakingChinese (a Chinese equivalent of the following message “Our Shanghaioffice handles businesses throughout the Eastern China”).

Now suppose all these web pages are searchable through a search engine.

A user query submitted to the search engine might originate from anypart of the world, and the user composes the query in a language of herchoice. If the search engine can automatically discern the origin, andthe language, of the query, then the engine can match information in themost appropriate combination of location and language, and displayaccordingly. For example, a barber shop's information is typicallyrelevant only to a user from the same or neighboring zip codes, a CPAfrom the same or neighboring cities, and a software developer maybe thesame country, all preferentially speaking the same language as apotential client.

In searching, the state of the art is to use information contained inuser's browser and the user query to detect the country (in prior artFIG. 4, for example), or the geographic location (in prior art FIG. 5,for example), or the preferred language (in prior art FIG. 3, forexample). There is also prior art that uses information provided byuser's browser to determine both the country and the language (in priorart FIG. 2, for example).

The state of the art is not satisfactory. For one reason, geographiclocations are of different “granularities” arranged in a hierarchicalmanner. It decidedly enhances relevance if the smallest possiblegranularity (many times much finer than “country”) is discerned, andused in searching. For example, the zip code 90024 corresponds to anarea within the district of West Los Angeles, which in turn is withinthe city of Los Angeles, which in turn is part of the Greater LosAngeles, Southern California, California, America's West Coast, theUnited States of America, and North America. When the zip code 90024 isdetected, search results associated with the zip code might be the mostrelevant, those associated with the district are less relevant, and in adecreasing order of relevance those associated with the city, theregion, so on.

The state of the art is not satisfactory, for another reason, thatsometimes there could be multiple detected locations. Further, sometimesthere could be multiple detected languages. The state of the art usesonly one pair of location and language, if that.

Further, the recent explosion of online videos for consumers,exemplified by contents on and visits to YouTube.com, leads to thecontention that an explosion of online video for businesses is in theoffing. Continuing the example above, suppose the company's web sitefeatures “About Us” videos that are dubbed in different languages aimingat different geographic locations. The need for a search engine toconsider the best combinations of location and language is even morepronounced.

An observation from the example above is that many times a same piece ofinformation exists in different languages for audiences in differentlocations, which calls for a means to identifying such relationshipsamong records. Current state of the art does not speak to this.

The discussion above applies to records that comprise of Web pages,documents, catalogues, and advertisements.

This and all other extraneous materials discussed herein areincorporated by reference in their entirety. Where a definition or useof a term in an incorporated reference is inconsistent or contrary tothe definition of that term provided herein, the definition of that termprovider herein applies and the definition of that term in the referencedoes not apply.

What is still needed is methods that automatically discern geographiclocations of the smallest possible granularity, determine the languageor the languages of the user query, and evaluate the applicability ofthe geographic locations using at least the language or the languages.Once locations and languages are determined, best combinations oflocations and language help retrieve and display records.

SUMMARY OF THE INVENTION

FIG. 1 depicts the scheme of Claim 1 of this invention, which comprisesmethods that automatically discern a set of suspected geographicalorigins from which a user may have connected to a server, identify oneor more languages of a user query, use the languages to evaluateapplicability of each of the suspected origins, and use the origins andlanguages in retrieving records and displaying them to the user.

A geographic origin is the geographic location from which the user isconnected to a server in the contemplated system. A geographic locationcan be a zip code (or generally a postal code), an airport code, a city,a non-political region such as “West Los Angeles” or “New England”, acity, a county, metropolitan or micropolitan statistical areas asdefined by the US Census (e.g., “Norfolk-Virginia Beach-Newport News”),a country, or a continent. In the discerning step, a smallest possibleorigin is sought out. For example, if “Los Angeles” can be discerning,it is preferred to “California”.

The discerning step utilizes information from user's connection, whichcould be via a Web browser, a cell phone, or a PDA, to name a few. Thestep also makes use of the user query, extracting information that issuggestive geographic locations. The result is a set of suspectedorigins to be further evaluated.

The use query is analyzed to find out the language, or sometimeslanguages, of the user query. The result is used in evaluating membersof the set of suspected origins.

Once the origins and languages are determined, both help to guideretrieving of records. Records that match the origins and languages arepreferred to those do not. When retrieved records contain at least tworecords each matching a different origin, with one embodiment, displayis arranged so that records from two or more origins are concurrentlydisplayed. Similarly, when retrieved records contain at least tworecords each matching a different language, with one embodiment, displayis arranged so that records two or more languages are concurrentlydisplayed.

Records are also partitioned so that different partitions are applieddifferent functions in retrieving and displaying. For example, onepartition of the records could comprise web pages from a company, andanother partition could comprise advertisements in textual or rich mediaformat from a same company.

Various objects, features, aspects and advantages of the presentinvention will become more apparent from the following detaileddescription of preferred embodiments of the invention, along with theaccompanying drawings in which like numerals represent like components.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 depicts the scheme of Claim 1 of this invention, where a userconnection and a user query are used in the following steps: (1)discerning suspected geographic origins of the user; (2) detecting userlanguage; and (3) using the language or the languages to evaluate thesuspected origins.

FIG. 2 shows prior art methods used by U.S. Pat. No. 6,623,529, DavidLakritz, Sep. 23, 2003, in determining the language and country of a website visitor, and using the determination in retrieving documents fromcountry/language databases.

FIG. 3 shows prior art methods used by US2004/0194099 A1, Lamping etal., Sep. 30, 2004, in dynamically determining preferred languages fromuser queries as well as from preliminary search results, in order tosort final search results with one or more preferred languages.

FIG. 4 shows prior art methods used by US 2004/0254932 A1, Gupta et al.,Dec. 16, 2004, in dynamically determining preferred country from userqueries as well as from preliminary search results, in order to sortfinal search results with one or more preferred country.

FIG. 5 shows prior art methods used by US2006/0106778 A1, Laura Baldwin,May 18, 2006, in determining a geographic location from a user query.(This prior art also disclosed their utilization of user's browser'sinformation in the same determining step.)

FIG. 6 depicts generally an embodiment of this invention, where a userconnects to the system, submits a query, and the system retrieves anddisplays records.

FIG. 7 depicts the general steps of automatically discerning a set ofsuspected geographic origins of a user, using both the user's connection(e.g., a Web browser) and the user query.

FIG. 8 depicts the general steps of determining languages of the user,also using both the user's connection and the user query.

FIG. 9 depicts the general steps of using user languages in evaluatingthe goodness of individual members of the set of suspected origins.

FIG. 10 depicts the general steps in evaluating combinations oflanguages and locations.

DETAILED DESCRIPTION

FIG. 1 depicts a class of methods that automatically discern 500 a setof suspected geographical origins from which a user may have connectedto a server through a user connection 405, identify one or morelanguages of a user query 410, use the languages to evaluate 545applicability of each of the suspected origins, determine 520 at leastone preferred language, and use the origins and languages in retrievingrecords and displaying them to the user.

FIGS. 2-5 are prior art described in the Background section. FIG. 6depicts generally an embodiment 100, where a user 400 connects to thesystem through the Interface 420. Through 420, a user query is submittedto the Front End Sub-system 300, which provides the user query as wellas other information, to the Search Sub-system 320, which finds matchesamong records stored on 200 Records Repository. The PresentationSub-system 330 is provided with matching records as well as otherinformation from 300 and 320, and display records on the Interface 420.Records on 200 have been processed from information gathered by 110Information Gathering Sub-system from Web or non-Web sources before auser connects.

Regarding 200 Records Repository, a record is associated with ageographic location, including but not limited to a postal code, adistrict, a non-political region, a city, a county, a metropolitan ormicropolitan statistical areas for example, as defined by the USCensus), a country, and a continent. For example, a post code could be“90210” or “310013”; a political district “Central, Hong Kong”; a city“Los Angeles” or “Hong Kong”; a county “Los Angeles County”; anon-political region “West Los Angeles” or “the Greater Los Angeles” or“the West Coast” or “New England”; a metropolitan or micropolitanstatistical area ““Norfolk-Virginia Beach-Newport News”; a country“United States of America”; a continent “North America”.

A record is also associated with at least one language. A language couldbe “English”, “American English”, “British English”, “Chinese”,“Cantonese”, “Chinese simplified”, “Chinese traditional”, or “ChineseHong Kong”. Further, a record comprises information in the form of text,or of rich media format (e.g. audio, video, image), or a combination.

Still further, a record could be a combination of other records. Forexample, a record labeled as “Record A” could be about a company'sgeneral introduction, and is combined from three records, “Record A1”,“Record A2”, “Record A3”, and “Record A4”, where “Record A1” is textualand associated with the geographical location “China mainland” and thelanguage “Chinese simplified”, “Record A2” is textual and associatedwith the geographical location “California” and the language “USEnglish”, “Record A3” is a video with Chinese dubbing and associatedwith “China mainland” and the language “Chinese simplified”, and “RecordA4” is a video with English dubbing and associated with “California” and“US English”.

Still further, records on 200 Records Repository are partitioned. Forexample, one partition of the records could comprise web pages from acompany, and another partition could comprise advertisements in textualor rich media format from a same company.

Through out the discussion below, it is intended that a method appliedto one partition might not be the same for another partition.

FIG. 7 depicts Step 500 of automatically discerning a set of suspecteduser origins 509, which generally comprises a user connection 405, auser query 410, step 502 discerning origins from the user connection,step 504 discerning origins from the user query, and step 506 decidingon a set of “smallest” suspected origins. A geographical origin is thegeographical location from which the user connects to the server.

A user connection 405 preferably is from a computer (desktop, laptop,workstation, server, etc.), alternatively from a cell phone, or a PDA,or others. In prior art US 20040254932 A1, Gupta et al., Dec. 16, 2004,various such connections are disclosed in paragraph 0030.

In Step 502, different methods are applied to different connections, toname a few below.

-   -   A) A client computer connecting using the HTTP protocol.        Typically the client uses a web browser, which transmits various        piece of information, as specified by the Common Gateway        Interface protocol, including but not limited to (1) the        client's Internet Protocol (IP) address which can be used via        Reverse IP lookup in order to map to geographic locations. This        is disclosed in both US2004/0194099 A1, Lamping et al., Sep. 30,        2004, paragraph 0081, and US2006/0106778 A1, Laura Baldwin, May        18, 2006, paragraph 0038; (2) the client's hostname, which can        be mapped via Domain Name Resolution to geographic locations.        This is also disclosed by the above two prior arts; and (3) with        certain software such WebPlexer, country can be automatically        determined, as disclosed in U.S. Pat. No. 6,623,529, David        Lakritz, Sep. 23, 2003, section 3.4.1.    -   B) A client providing a phone number. A cell phone client could        provide this information.

The phone number's country code, area code, central office code, as wellas the other parts of the phone number, can all be used in mapping intogeographic locations.

-   -   C) A client providing GPS coordinates. GPS coordinates can be        mapped into geographic locations.

In Step 504, the user query string is analyzed for informationsuggestive of geographical locations. Some of the methods are discussedbelow:

-   -   (504A) Looking for a proper name for geographic locations such        as “Los Angeles”, “Shanghai”, the Chinese equivalent of        “Shanghai”, a location's nickname such as the “Big Apple”. This        method is generally disclosed in US2006/0106778 A1, Laura        Baldwin, May 18, 2006, paragraph 0040.    -   (504.B) Looking for information other than proper names        suggestive of geographic locations. For one example, in the        query “flying from LAX to JFK”, two geographic locations are        present.

In Step 506, at least two sets of suspected origins are merged, and thegoal is to find the set of “smallest” geographical locations, whosepreferred definition is that the union of members covers the smallestpossible geographical area. For example, given the following two sets:(i) {“United States”}, and (ii) {“California”, “Oregon”, “Arizona”}, themethod finds the latter set. All suitable algorithms are contemplated,including but not limited to lookup tables, greedy search algorithms,and shortest path algorithms.

FIG. 8 depicts Step 520 of detecting languages the user uses, whichgenerally comprises a user connection 405, a user query 410, step 523 ofdetecting languages from the user connection, step 525 of detectinglanguages from the user query, and step 527 of merging the previousdetections into a set of languages.

In Step 523, different methods are applied to different connections, toname a few below.

-   -   (523.A) A client computer connecting using the HTTP protocol. A        web browser transmits various piece of information, as specified        by the Common Gateway Interface protocol, and additionally        through request message header, including but not limited to (1)        the language accepted by the client's web browser. This is        disclosed in prior art U.S. Pat. No. 6,632,529, David Lakritz,        Sep. 23, 203, section 3.3.4, as well as in US2004/0194099 A1,        Lamping et al., Sep. 30, 2004, paragraph 0079 and 0080; and (2)        the client's operating system (such as “Microsoft XP Chinese”).        Such information can be mapped into geographic locations. For        example, “Microsoft XP Chinese” could be mapped to languages of        {“China simplified Mainland China”, “Chinese simplified        Singapore”}.    -   (502.B) A client providing a phone number. A cell phone client        could provide this information. The phone number's country code        is readily mapped into at least one language. Sometimes the area        code is readily mapped into at least one dialect (e.g.,        Cantonese in parts of China).

In Step 525 of detecting languages from the user query, somecontemplated methods are listed below.

-   -   (525.A) Technology for language identification for a text string        is well known, e.g., the Rosette Language Identifier software        from Basis Technology, Inc.    -   (525.B) In the case of a user query string composed of at least        two different languages, new method is developed by this        invention, so that a query string is first segmented into        different parts, and each part is further detected of its        preferred languages.

In Step 527, at least two sets of languages are merged into one set. Thegoal is to find a set of “finest” languages. For example, given twosets, (i) {“English“, “Chinese”}; (ii) {“American English”, “Chinese”},the former is found. All suitable algorithms are contemplated, includingbut not limited to lookup tables, greedy search algorithms, and shortestpath algorithms. In step 529, the system derives at least one preferredlanguage.

FIG. 9 generally depicts a contemplated strategy 540 for using at leastone preferred language 529 to modify the set of the suspected origins509, and associating a confidence measure on every element in the set oforigins. The result is the evaluated set of origins 545.

The system has knowledge on mapping from languages to geographicallocations. One piece of knowledge could be (“Chinesesimplified”=>{(“China mainland”, 0.9), (“Singapore”, 0.4), (“China HongKong”, 0.1)}. This piece knowledge states that the language “Chinesesimplified” corresponds to three geographical locations each of which isassociated with a confidence measure of 0.9, 0.4 or 0.1 respectively.Suppose there is a set of suspected geographical origins {“Chinamainland”, “China Hong Kong”, “Singapore”, “Taiwan”}, and a user query'slanguage is identified as {“Chinese simplified”}, then applying theabove piece of knowledge to the set of origins could lead to the removalof the element “Taiwan”, and the remaining three elements are associatedwith confidence measures partially derided from the piece of knowledge.

FIG. 10 depicts methods in finding the best combinations of locationsand languages, which generally comprises the evaluated set of origins545, the languages 529, Step 562 applying generally relationships amonglanguages and locations, and Step 564 applying non-general relationshipsamong languages and locations. The result is the best combinations 568.

In Step 562, general relationships among languages and locations areapplies in order to evaluate combinations. Such relationships comprisecommonly known language and location combinations that exist. Forexample, given the set of origins {“London”} and the languages {“USEnglish”, “UK English”}, then the combination of (“London”, “UKEnglish”) is evaluated as a preferred one to (“London”, “US English”).The system stores such relationships, with one embodiment in a lookuptable.

In Step 564, non-general relationships among language and locations areapplied. Some sets of such relationships are listed below.

-   -   (564.A) One set of such relationships are those of local nature.        For example, regions such as Montreal have two prevailing        languages, and this local relationship overrides the general        relationship of (“Canada”, “English”).    -   (564.B) Another set of such relationships are those inheritably        “conflicting”. For example, a user connects from Shanghai, using        a browser on a Microsoft XP Chinese operating system, submitting        a query in simplified Chinese that has “90024” in it. The        suspected origins are thus {“Shanghai”, “90024”} (90024 is a zip        code in Los Angeles), and the language {“Chinese simplified”}.        Consider the relative goodness of the two combinations:        (“90024”, “Chinese simplified”) and (“Shanghai”, Chinese        simplified). The first combination might well be what the user        is seeking (information relevant to the zip code, and in        simplified Chinese), however, there is very little such        information exits. The second combination might not be what the        user is seeking, but there is a large amount of such information        exists. Such relationships are accumulated through interviewing        experts and by collecting statistics, and stored on the system.        One embodiment is the storage is lookup tables, another        embodiment probability rules.

Once the suspected origins, the languages, and the best combinations ofthe two, are derived, they are used in retrieving and displayingrecords.

As stated above, a record on 200 Record Repository has been associatedwith a geographic location and a language. The matching of a user'sgeographical origin and a record's geographical location is done atsmallest geographical area possible. For example, if a set of origins is{“California”, “Arizona”}, and a location is {“Los Angeles”}, then thematching is “Los Angeles”.

At Search Sub-system 320, the matching of a query's language and arecord's language is at the finest possible. For example, if a query'slanguage is “Chinese”, and a record's language is “Chinese simplified”,then the matching is “Chinese simplified”. The Search Sub-system 320retrieves those records whose geographical locations and languages matcha user query with priority over those do not. Further, the bestcombinations 568 are applied in sorting the retrieved records. Allsuitable algorithms are contemplated, including but not limited tolookup tables, greedy search algorithms, and shortest path algorithms.

At Interface 420 where retrieved records are displayed, several methodsare contemplated as below.

-   -   (420.A) If there are two combinations of location and language,        display records in two areas, one for the first combination, and        the other for the second combination. If there are more than two        good combinations, records in the best two are displayed first.    -   (420.B) If combinations of locations and languages are not        available, the following methods are contemplated:        -   (420.B.1) If a user query has two suspected origins, our            system displays records in two areas, one for the first            origin, and two for the second origin. If there are more            than two origins, records in the two with highest confidence            measures are displayed first. Preferably records are            displayed in two areas.        -   (420.B.2) If a user query has two suspected languages, our            system displays records in two areas, one for the first            language, and two for the second language. If there are more            than two languages, records in the two with finest languages            are displayed first. Preferably records are displayed in two            areas.

Thus, specific embodiments and applications of searching with awarenessof locations and languages and related improvements have been disclosed.It should be apparent, however, to those skilled in the art that manymore modifications besides those already described are possible withoutdeparting from the inventive concepts herein. The inventive subjectmatter, therefore, is not to be restricted except in the spirit of theappended claims. Moreover, in interpreting both the specification andthe claims, all terms should be interpreted in the broadest possiblemanner consistent with the context. In particular, the terms “comprises”and “comprising” should be interpreted as referring to elements,components, or steps in a non-exclusive manner, indicating that thereferenced elements, components, or steps may be present, or utilized,or combined with other elements, components, or steps that are notexpressly referenced. Where the specification claims refers to at leastone of something selected from the group consisting of A, B, C . . . andN, the text should be interpreted as requiring only one element from thegroup, not A plus N, or B plus N, etc.

1. A method of providing records to a user, comprising: automaticallydiscerning a set of suspected geographical origins from which the usermay have connected to a server; identifying a first language of a termsubmitted in a query by the user; and using the first language toevaluate applicability of an individual member of the set of suspectedorigins to the user.
 2. The method of claim 1, wherein at least one ofthe origins is a non-political region.
 3. The method of claim 1, whereinat least one of the origins is a metropolitan or micropolitanstatistical area.
 4. The method of claim 1, wherein at least one of theorigins is a postal code.
 5. The method of claim 1, where in at leastone of the origins is an airport code.
 6. The method of claim 1, whereinthe set of suspected origins includes a smallest member, and theindividual member is the smallest member.
 7. The method of claim 1,further comprising using a second term from the query to assist inevaluating the applicability of the individual member.
 8. The method ofclaim 1, further comprising preferentially serving information to theuser as a function of at least one of the individual member and thefirst language.
 9. The method of claim 1, further comprisingconcurrently displaying to the user at least a portion of theinformation in both the individual member and another member of the setof suspected origins.
 10. The method of claim 1, further comprisingconcurrently displaying to the user at least a portion of theinformation in both the first language and another language.
 11. Themethod of claim 1, wherein the information is derived from a pluralityof records that are selected at least in part as a second function of atleast one of the individual member and the first language.
 12. Themethod of claim 9, wherein at least some of the plurality of recordscontain data in a rich content format.
 13. The method of claim 1,further comprising providing a display to the user that includes firstand second areas, each of which contains a portion of the information.